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*DECK SNQU03
SUBROUTINE SNQU03(NLF,JOP,U,W,TPQ,UPQ,VPQ,WPQ)
*
*-----------------------------------------------------------------------
*
*Purpose:
* Set the level-symmetric quadratures of code SNOW.
*
*Copyright:
* Copyright (C) 2005 Ecole Polytechnique de Montreal
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2.1 of the License, or (at your option) any later version
*
*Author(s): A. Hebert
*
*Parameters: input
* NLF order of the SN approximation (even number).
*
*Parameters: output
* JOP number of base points per axial level in one octant.
* U base points in $\\xi$ of the axial quadrature. Used with
* zero-weight points.
* W weights for the axial quadrature in $\\xi$.
* TPQ base points in $\\xi$ of the 2D SN quadrature.
* UPQ base points in $\\mu$ of the 2D SN quadrature.
* VPQ base points in $\\eta$ of the 2D SN quadrature.
* WPQ weights of the 2D SN quadrature.
*
*-----------------------------------------------------------------------
*
*----
* SUBROUTINE ARGUMENTS
*----
INTEGER NLF,JOP(NLF/2)
REAL U(NLF/2),W(NLF/2),TPQ(NLF*(NLF/2+1)/4),UPQ(NLF*(NLF/2+1)/4),
1 VPQ(NLF*(NLF/2+1)/4),WPQ(NLF*(NLF/2+1)/4)
*----
* LOCAL VARIABLES
*----
PARAMETER(PI=3.141592654,MAXNLF=20,MAXNBA=55,MAXW=12)
INTEGER INWEI(MAXNBA)
DOUBLE PRECISION ZMU1,ZMU2,WSUM2,WEI(MAXW)
*----
* SET THE UNIQUE QUADRATURE VALUES.
*----
IF(NLF.GT.MAXNLF) CALL XABORT('SNQU03: MAXNLF OVERFLOW.')
M2=NLF/2
NPQ=M2*(M2+1)/2
ZMU1=1.0D0/(3.0D0*DBLE(NLF-1))
NW=1+(NLF*(NLF+8)-1)/48
IF(NW.GT.MAXW) CALL XABORT('SNQU03: MAXW OVERFLOW.')
IF(NLF.EQ.2) THEN
WEI(1)=1.0D0
ELSE IF(NLF.EQ.4) THEN
WEI(1)=0.3333333
ELSE IF(NLF.EQ.6) THEN
WEI(1)=0.1608612
WEI(2)=0.1724721
ELSE IF(NLF.EQ.8) THEN
WEI(1)=0.1066008
WEI(2)=0.1011727
WEI(3)=0.0731616
ELSE
CALL XABORT('SNQU03: ORDER NOT AVAILABLE.')
ENDIF
U(1)=REAL(SQRT(ZMU1))
DO I=2,M2
ZMU2=ZMU1+2.0D0*DBLE(I-1)*(1.0D0-3.0D0*ZMU1)/DBLE(NLF-2)
U(I)=REAL(SQRT(ZMU2))
ENDDO
*----
* COMPUTE THE POSITION OF WEIGHTS.
*----
IPR=0
INMAX=0
DO IP=1,M2
JOP(IP)=M2-IP+1
DO IQ=1,JOP(IP)
IPR=IPR+1
IF(IPR.GT.MAXNBA) CALL XABORT('SNQU03: MAXNBA OVERFLOW.')
TPQ(IPR)=U(IP)
UPQ(IPR)=U(M2+2-IP-IQ)
VPQ(IPR)=U(IQ)
IS=MIN(IP,IQ,M2+2-IP-IQ)
NW0=0
DO II=1,IS-1
NW0=NW0+(M2-3*(II-1)+1)/2
ENDDO
KK=IP-IS+1
LL=IQ-IS+1
IF(KK.EQ.1)THEN
INWEI(IPR)=NW0+MIN(LL,M2-3*(IS-1)+1-LL)
ELSEIF(LL.EQ.1)THEN
INWEI(IPR)=NW0+MIN(KK,M2-3*(IS-1)+1-KK)
ELSE
INWEI(IPR)=NW0+MIN(KK,LL)
ENDIF
INMAX=MAX(INMAX,INWEI(IPR))
ENDDO
ENDDO
IF(INMAX.NE.NW) CALL XABORT('SNQU03: INVALID VALUE OD NW.')
IF(IPR.NE.NPQ) CALL XABORT('SNQU03: BAD VALUE ON NPQ.')
*----
* SET THE LEVEL-SYMMETRIC QUADRATURES.
*----
IPQ=0
WSUM=0.0
DO IP=1,M2
WSUM2=0.0D0
DO IQ=1,JOP(IP)
IPQ=IPQ+1
WPQ(IPQ)=REAL(WEI(INWEI(IPQ))*PI/2.0)
WSUM2=WSUM2+WEI(INWEI(IPQ))
ENDDO
W(IP)=REAL(WSUM2)
WSUM=WSUM+REAL(WSUM2*PI/2.0)
ENDDO
RETURN
END
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